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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
*/
"use strict";
const { AppConstants } = ChromeUtils.importESModule(
);
const { ctypes } = ChromeUtils.importESModule(
);
const { FileUtils } = ChromeUtils.importESModule(
);
const { HttpServer } = ChromeUtils.importESModule(
);
const { MockRegistrar } = ChromeUtils.importESModule(
);
const { NetUtil } = ChromeUtils.importESModule(
);
const { XPCOMUtils } = ChromeUtils.importESModule(
);
const { X509 } = ChromeUtils.importESModule(
);
const gIsDebugBuild = Cc["@mozilla.org/xpcom/debug;1"].getService(
Ci.nsIDebug2
).isDebugBuild;
// The test EV roots are only enabled in debug builds as a security measure.
const gEVExpected = gIsDebugBuild;
const CLIENT_AUTH_FILE_NAME = "ClientAuthRememberList.bin";
const SSS_STATE_FILE_NAME = "SiteSecurityServiceState.bin";
const SSS_STATE_OLD_FILE_NAME = "SiteSecurityServiceState.txt";
const CERT_OVERRIDE_FILE_NAME = "cert_override.txt";
const SEC_ERROR_BASE = Ci.nsINSSErrorsService.NSS_SEC_ERROR_BASE;
const SSL_ERROR_BASE = Ci.nsINSSErrorsService.NSS_SSL_ERROR_BASE;
const MOZILLA_PKIX_ERROR_BASE = Ci.nsINSSErrorsService.MOZILLA_PKIX_ERROR_BASE;
// This isn't really a valid PRErrorCode, but is useful for signalling that
// a test is expected to succeed.
const PRErrorCodeSuccess = 0;
// Sort in numerical order
const SEC_ERROR_INVALID_TIME = SEC_ERROR_BASE + 8;
const SEC_ERROR_BAD_DER = SEC_ERROR_BASE + 9;
const SEC_ERROR_BAD_SIGNATURE = SEC_ERROR_BASE + 10;
const SEC_ERROR_EXPIRED_CERTIFICATE = SEC_ERROR_BASE + 11;
const SEC_ERROR_REVOKED_CERTIFICATE = SEC_ERROR_BASE + 12;
const SEC_ERROR_UNKNOWN_ISSUER = SEC_ERROR_BASE + 13;
const SEC_ERROR_UNTRUSTED_ISSUER = SEC_ERROR_BASE + 20;
const SEC_ERROR_UNTRUSTED_CERT = SEC_ERROR_BASE + 21;
const SEC_ERROR_EXPIRED_ISSUER_CERTIFICATE = SEC_ERROR_BASE + 30;
const SEC_ERROR_CA_CERT_INVALID = SEC_ERROR_BASE + 36;
const SEC_ERROR_UNKNOWN_CRITICAL_EXTENSION = SEC_ERROR_BASE + 41;
const SEC_ERROR_PKCS7_BAD_SIGNATURE = SEC_ERROR_BASE + 47;
const SEC_ERROR_INADEQUATE_KEY_USAGE = SEC_ERROR_BASE + 90;
const SEC_ERROR_INADEQUATE_CERT_TYPE = SEC_ERROR_BASE + 91;
const SEC_ERROR_CERT_NOT_IN_NAME_SPACE = SEC_ERROR_BASE + 112;
const SEC_ERROR_CERT_BAD_ACCESS_LOCATION = SEC_ERROR_BASE + 117;
const SEC_ERROR_OCSP_MALFORMED_REQUEST = SEC_ERROR_BASE + 120;
const SEC_ERROR_OCSP_SERVER_ERROR = SEC_ERROR_BASE + 121;
const SEC_ERROR_OCSP_TRY_SERVER_LATER = SEC_ERROR_BASE + 122;
const SEC_ERROR_OCSP_REQUEST_NEEDS_SIG = SEC_ERROR_BASE + 123;
const SEC_ERROR_OCSP_UNAUTHORIZED_REQUEST = SEC_ERROR_BASE + 124;
const SEC_ERROR_OCSP_UNKNOWN_CERT = SEC_ERROR_BASE + 126;
const SEC_ERROR_OCSP_MALFORMED_RESPONSE = SEC_ERROR_BASE + 129;
const SEC_ERROR_OCSP_UNAUTHORIZED_RESPONSE = SEC_ERROR_BASE + 130;
const SEC_ERROR_OCSP_OLD_RESPONSE = SEC_ERROR_BASE + 132;
const SEC_ERROR_UNSUPPORTED_ELLIPTIC_CURVE = SEC_ERROR_BASE + 141;
const SEC_ERROR_OCSP_INVALID_SIGNING_CERT = SEC_ERROR_BASE + 144;
const SEC_ERROR_POLICY_VALIDATION_FAILED = SEC_ERROR_BASE + 160;
const SEC_ERROR_OCSP_BAD_SIGNATURE = SEC_ERROR_BASE + 157;
const SEC_ERROR_CERT_SIGNATURE_ALGORITHM_DISABLED = SEC_ERROR_BASE + 176;
const SSL_ERROR_NO_CYPHER_OVERLAP = SSL_ERROR_BASE + 2;
const SSL_ERROR_BAD_CERT_DOMAIN = SSL_ERROR_BASE + 12;
const SSL_ERROR_BAD_CERT_ALERT = SSL_ERROR_BASE + 17;
const SSL_ERROR_WEAK_SERVER_CERT_KEY = SSL_ERROR_BASE + 132;
const SSL_ERROR_DC_INVALID_KEY_USAGE = SSL_ERROR_BASE + 184;
const SSL_ERROR_ECH_RETRY_WITH_ECH = SSL_ERROR_BASE + 188;
const SSL_ERROR_ECH_RETRY_WITHOUT_ECH = SSL_ERROR_BASE + 189;
const SSL_ERROR_ECH_FAILED = SSL_ERROR_BASE + 190;
const SSL_ERROR_ECH_REQUIRED_ALERT = SSL_ERROR_BASE + 191;
const MOZILLA_PKIX_ERROR_KEY_PINNING_FAILURE = MOZILLA_PKIX_ERROR_BASE + 0;
const MOZILLA_PKIX_ERROR_CA_CERT_USED_AS_END_ENTITY =
MOZILLA_PKIX_ERROR_BASE + 1;
const MOZILLA_PKIX_ERROR_INADEQUATE_KEY_SIZE = MOZILLA_PKIX_ERROR_BASE + 2;
const MOZILLA_PKIX_ERROR_V1_CERT_USED_AS_CA = MOZILLA_PKIX_ERROR_BASE + 3;
const MOZILLA_PKIX_ERROR_NOT_YET_VALID_CERTIFICATE =
MOZILLA_PKIX_ERROR_BASE + 5;
const MOZILLA_PKIX_ERROR_NOT_YET_VALID_ISSUER_CERTIFICATE =
MOZILLA_PKIX_ERROR_BASE + 6;
const MOZILLA_PKIX_ERROR_OCSP_RESPONSE_FOR_CERT_MISSING =
MOZILLA_PKIX_ERROR_BASE + 8;
const MOZILLA_PKIX_ERROR_REQUIRED_TLS_FEATURE_MISSING =
MOZILLA_PKIX_ERROR_BASE + 10;
const MOZILLA_PKIX_ERROR_EMPTY_ISSUER_NAME = MOZILLA_PKIX_ERROR_BASE + 12;
const MOZILLA_PKIX_ERROR_ADDITIONAL_POLICY_CONSTRAINT_FAILED =
MOZILLA_PKIX_ERROR_BASE + 13;
const MOZILLA_PKIX_ERROR_SELF_SIGNED_CERT = MOZILLA_PKIX_ERROR_BASE + 14;
const MOZILLA_PKIX_ERROR_MITM_DETECTED = MOZILLA_PKIX_ERROR_BASE + 15;
// Supported Certificate Usages
const certificateUsageSSLClient = 0x0001;
const certificateUsageSSLServer = 0x0002;
const certificateUsageSSLCA = 0x0008;
const certificateUsageEmailSigner = 0x0010;
const certificateUsageEmailRecipient = 0x0020;
// A map from the name of a certificate usage to the value of the usage.
// Useful for printing debugging information and for enumerating all supported
// usages.
const allCertificateUsages = {
certificateUsageSSLClient,
certificateUsageSSLServer,
certificateUsageSSLCA,
certificateUsageEmailSigner,
certificateUsageEmailRecipient,
};
const NO_FLAGS = 0;
const CRLiteModeDisabledPrefValue = 0;
const CRLiteModeTelemetryOnlyPrefValue = 1;
const CRLiteModeEnforcePrefValue = 2;
const CRLiteModeConfirmRevocationsValue = 3;
// Convert a string to an array of bytes consisting of the char code at each
// index.
function stringToArray(s) {
let a = [];
for (let i = 0; i < s.length; i++) {
a.push(s.charCodeAt(i));
}
return a;
}
// Converts an array of bytes to a JS string using fromCharCode on each byte.
function arrayToString(a) {
let s = "";
for (let b of a) {
s += String.fromCharCode(b);
}
return s;
}
// Commonly certificates are represented as PEM. The format is roughly as
// follows:
//
// -----BEGIN CERTIFICATE-----
// [some lines of base64, each typically 64 characters long]
// -----END CERTIFICATE-----
//
// However, nsIX509CertDB.constructX509FromBase64 and related functions do not
// handle input of this form. Instead, they require a single string of base64
// with no newlines or BEGIN/END headers. This is a helper function to convert
// PEM to the format that nsIX509CertDB requires.
function pemToBase64(pem) {
return pem
.replace(/-----BEGIN CERTIFICATE-----/, "")
.replace(/-----END CERTIFICATE-----/, "")
.replace(/[\r\n]/g, "");
}
function build_cert_chain(certNames, testDirectory = "bad_certs") {
let certList = [];
certNames.forEach(function (certName) {
let cert = constructCertFromFile(`${testDirectory}/${certName}.pem`);
certList.push(cert);
});
return certList;
}
function areCertsEqual(certA, certB) {
let derA = certA.getRawDER();
let derB = certB.getRawDER();
if (derA.length != derB.length) {
return false;
}
for (let i = 0; i < derA.length; i++) {
if (derA[i] != derB[i]) {
return false;
}
}
return true;
}
function areCertArraysEqual(certArrayA, certArrayB) {
if (certArrayA.length != certArrayB.length) {
return false;
}
for (let i = 0; i < certArrayA.length; i++) {
const certA = certArrayA[i];
const certB = certArrayB[i];
if (!areCertsEqual(certA, certB)) {
return false;
}
}
return true;
}
function readFile(file) {
let fstream = Cc["@mozilla.org/network/file-input-stream;1"].createInstance(
Ci.nsIFileInputStream
);
fstream.init(file, -1, 0, 0);
let available = fstream.available();
let data =
available > 0 ? NetUtil.readInputStreamToString(fstream, available) : "";
fstream.close();
return data;
}
function addCertFromFile(certdb, filename, trustString) {
let certFile = do_get_file(filename, false);
let certBytes = readFile(certFile);
try {
return certdb.addCert(certBytes, trustString);
} catch (e) {}
// It might be PEM instead of DER.
return certdb.addCertFromBase64(pemToBase64(certBytes), trustString);
}
function constructCertFromFile(filename) {
let certFile = do_get_file(filename, false);
let certBytes = readFile(certFile);
let certdb = Cc["@mozilla.org/security/x509certdb;1"].getService(
Ci.nsIX509CertDB
);
try {
return certdb.constructX509(stringToArray(certBytes));
} catch (e) {}
// It might be PEM instead of DER.
return certdb.constructX509FromBase64(pemToBase64(certBytes));
}
function setCertTrust(cert, trustString) {
let certdb = Cc["@mozilla.org/security/x509certdb;1"].getService(
Ci.nsIX509CertDB
);
certdb.setCertTrustFromString(cert, trustString);
}
function getXPCOMStatusFromNSS(statusNSS) {
let nssErrorsService = Cc["@mozilla.org/nss_errors_service;1"].getService(
Ci.nsINSSErrorsService
);
return nssErrorsService.getXPCOMFromNSSError(statusNSS);
}
// Helper for checkCertErrorGenericAtTime
class CertVerificationExpectedErrorResult {
constructor(certName, expectedError, expectedEVStatus, resolve) {
this.certName = certName;
this.expectedError = expectedError;
this.expectedEVStatus = expectedEVStatus;
this.resolve = resolve;
}
verifyCertFinished(aPRErrorCode, aVerifiedChain, aHasEVPolicy) {
equal(
aPRErrorCode,
this.expectedError,
`verifying ${this.certName}: should get error ${this.expectedError}`
);
if (this.expectedEVStatus != undefined) {
equal(
aHasEVPolicy,
this.expectedEVStatus,
`verifying ${this.certName}: ` +
`should ${this.expectedEVStatus ? "be" : "not be"} EV`
);
}
this.resolve();
}
}
// certdb implements nsIX509CertDB. See nsIX509CertDB.idl for documentation.
// In particular, hostname is optional.
function checkCertErrorGenericAtTime(
certdb,
cert,
expectedError,
usage,
time,
/* optional */ isEVExpected,
/* optional */ hostname,
/* optional */ flags = NO_FLAGS
) {
return new Promise(resolve => {
let result = new CertVerificationExpectedErrorResult(
cert.commonName,
expectedError,
isEVExpected,
resolve
);
certdb.asyncVerifyCertAtTime(cert, usage, flags, hostname, time, result);
});
}
// certdb implements nsIX509CertDB. See nsIX509CertDB.idl for documentation.
// In particular, hostname is optional.
function checkCertErrorGeneric(
certdb,
cert,
expectedError,
usage,
/* optional */ isEVExpected,
/* optional */ hostname
) {
let now = new Date().getTime() / 1000;
return checkCertErrorGenericAtTime(
certdb,
cert,
expectedError,
usage,
now,
isEVExpected,
hostname
);
}
function checkEVStatus(certDB, cert, usage, isEVExpected) {
return checkCertErrorGeneric(
certDB,
cert,
PRErrorCodeSuccess,
usage,
isEVExpected
);
}
function _getLibraryFunctionWithNoArguments(
functionName,
libraryName,
returnType
) {
// Open the NSS library. copied from services/crypto/modules/WeaveCrypto.js
let path = ctypes.libraryName(libraryName);
// XXX really want to be able to pass specific dlopen flags here.
let nsslib;
try {
nsslib = ctypes.open(path);
} catch (e) {
// In case opening the library without a full path fails,
// try again with a full path.
let file = Services.dirsvc.get("GreBinD", Ci.nsIFile);
file.append(path);
nsslib = ctypes.open(file.path);
}
let SECStatus = ctypes.int;
let func = nsslib.declare(
functionName,
ctypes.default_abi,
returnType || SECStatus
);
return func;
}
function clearOCSPCache() {
let certdb = Cc["@mozilla.org/security/x509certdb;1"].getService(
Ci.nsIX509CertDB
);
certdb.clearOCSPCache();
}
function clearSessionCache() {
let nssComponent = Cc["@mozilla.org/psm;1"].getService(Ci.nsINSSComponent);
nssComponent.clearSSLExternalAndInternalSessionCache();
}
function getSSLStatistics() {
let SSL3Statistics = new ctypes.StructType("SSL3Statistics", [
{ sch_sid_cache_hits: ctypes.long },
{ sch_sid_cache_misses: ctypes.long },
{ sch_sid_cache_not_ok: ctypes.long },
{ hsh_sid_cache_hits: ctypes.long },
{ hsh_sid_cache_misses: ctypes.long },
{ hsh_sid_cache_not_ok: ctypes.long },
{ hch_sid_cache_hits: ctypes.long },
{ hch_sid_cache_misses: ctypes.long },
{ hch_sid_cache_not_ok: ctypes.long },
{ sch_sid_stateless_resumes: ctypes.long },
{ hsh_sid_stateless_resumes: ctypes.long },
{ hch_sid_stateless_resumes: ctypes.long },
{ hch_sid_ticket_parse_failures: ctypes.long },
]);
let SSL3StatisticsPtr = new ctypes.PointerType(SSL3Statistics);
let SSL_GetStatistics = null;
try {
SSL_GetStatistics = _getLibraryFunctionWithNoArguments(
"SSL_GetStatistics",
"ssl3",
SSL3StatisticsPtr
);
} catch (e) {
// On Windows, this is actually in the nss3 library.
SSL_GetStatistics = _getLibraryFunctionWithNoArguments(
"SSL_GetStatistics",
"nss3",
SSL3StatisticsPtr
);
}
if (!SSL_GetStatistics) {
throw new Error("Failed to get SSL statistics");
}
return SSL_GetStatistics();
}
// Set up a TLS testing environment that has a TLS server running and
// ready to accept connections. This async function starts the server and
// waits for the server to indicate that it is ready.
//
// Each test should have its own subdomain of example.com, for example
// my-first-connection-test.example.com. The server can use the server
// name (passed through the SNI TLS extension) to determine what behavior
// the server side of the text should exhibit. See TLSServer.h for more
// information on how to write the server side of tests.
//
// Create a new source file for your new server executable in
// security/manager/ssl/tests/unit/tlsserver/cmd similar to the other ones in
// that directory, and add a reference to it to the sources variable in that
// directory's moz.build.
//
// Modify TEST_HARNESS_BINS in
// testing/mochitest/Makefile.in and NO_PKG_FILES in
// toolkit/mozapps/installer/packager.mk to make sure the new executable
// gets included in the packages used for shipping the tests to the test
// runners in our build/test farm. (Things will work fine locally without
// these changes but will break on TBPL.)
//
// Your test script should look something like this:
/*
// -*- Mode: javascript; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
"use strict";
// <documentation on your test>
function run_test() {
do_get_profile();
add_tls_server_setup("<test-server-name>", "<path-to-certificate-directory>");
add_connection_test("<test-name-1>.example.com",
SEC_ERROR_xxx,
function() { ... },
function(aTransportSecurityInfo) { ... },
function(aTransport) { ... });
[...]
add_connection_test("<test-name-n>.example.com", PRErrorCodeSuccess);
run_next_test();
}
*/
function add_tls_server_setup(serverBinName, certsPath, addDefaultRoot = true) {
add_test(function () {
_setupTLSServerTest(serverBinName, certsPath, addDefaultRoot);
});
}
/**
* Add a TLS connection test case.
*
* @param {string} aHost
* The hostname to pass in the SNI TLS extension; this should unambiguously
* identify which test is being run.
* @param {PRErrorCode} aExpectedResult
* The expected result of the connection. If an error is not expected, pass
* in PRErrorCodeSuccess.
* @param {Function} aBeforeConnect
* A callback function that takes no arguments that will be called before the
* connection is attempted.
* @param {Function} aWithSecurityInfo
* A callback function that takes an nsITransportSecurityInfo, which is called
* after the TLS handshake succeeds.
* @param {Function} aAfterStreamOpen
* A callback function that is called with the nsISocketTransport once the
* output stream is ready.
* @param {OriginAttributes} aOriginAttributes (optional)
* The origin attributes that the socket transport will have. This parameter
* affects OCSP because OCSP cache is double-keyed by origin attributes' first
* party domain.
*
* @param {OriginAttributes} aEchConfig (optional)
* A Base64-encoded ECHConfig. If non-empty, it will be configured to the client
* socket resulting in an Encrypted Client Hello extension being sent. The client
* keypair is ephermeral and generated within NSS.
*/
function add_connection_test(
aHost,
aExpectedResult,
aBeforeConnect,
aWithSecurityInfo,
aAfterStreamOpen,
/* optional */ aOriginAttributes,
/* optional */ aEchConfig
) {
add_test(function () {
if (aBeforeConnect) {
aBeforeConnect();
}
asyncConnectTo(
aHost,
aExpectedResult,
aWithSecurityInfo,
aAfterStreamOpen,
aOriginAttributes,
aEchConfig
).then(run_next_test);
});
}
async function asyncConnectTo(
aHost,
aExpectedResult,
/* optional */ aWithSecurityInfo = undefined,
/* optional */ aAfterStreamOpen = undefined,
/* optional */ aOriginAttributes = undefined,
/* optional */ aEchConfig = undefined
) {
const REMOTE_PORT = 8443;
function Connection(host) {
this.host = host;
this.thread = Services.tm.currentThread;
this.defer = Promise.withResolvers();
let sts = Cc["@mozilla.org/network/socket-transport-service;1"].getService(
Ci.nsISocketTransportService
);
this.transport = sts.createTransport(
["ssl"],
host,
REMOTE_PORT,
null,
null
);
if (aEchConfig) {
this.transport.setEchConfig(atob(aEchConfig));
}
// listening on 127.0.0.1 causes frequent failures on OS X 10.10.
this.transport.connectionFlags |= Ci.nsISocketTransport.DISABLE_IPV6;
this.transport.setEventSink(this, this.thread);
if (aOriginAttributes) {
this.transport.originAttributes = aOriginAttributes;
}
this.inputStream = null;
this.outputStream = null;
this.connected = false;
}
Connection.prototype = {
// nsITransportEventSink
onTransportStatus(aTransport, aStatus) {
if (
!this.connected &&
aStatus == Ci.nsISocketTransport.STATUS_CONNECTED_TO
) {
this.connected = true;
this.outputStream.asyncWait(this, 0, 0, this.thread);
}
},
// nsIInputStreamCallback
onInputStreamReady(aStream) {
try {
// this will throw if the stream has been closed by an error
let str = NetUtil.readInputStreamToString(aStream, aStream.available());
Assert.equal(str, "0", "Should have received ASCII '0' from server");
this.inputStream.close();
this.outputStream.close();
this.result = Cr.NS_OK;
} catch (e) {
this.result = e.result;
}
this.defer.resolve(this);
},
// nsIOutputStreamCallback
onOutputStreamReady() {
if (aAfterStreamOpen) {
aAfterStreamOpen(this.transport);
}
this.outputStream.write("0", 1);
let inStream = this.transport
.openInputStream(0, 0, 0)
.QueryInterface(Ci.nsIAsyncInputStream);
this.inputStream = inStream;
this.inputStream.asyncWait(this, 0, 0, this.thread);
},
go() {
this.outputStream = this.transport
.openOutputStream(0, 0, 0)
.QueryInterface(Ci.nsIAsyncOutputStream);
return this.defer.promise;
},
};
/* Returns a promise to connect to host that resolves to the result of that
* connection */
function connectTo(host) {
Services.prefs.setCharPref("network.dns.localDomains", host);
let connection = new Connection(host);
return connection.go();
}
return connectTo(aHost).then(async function (conn) {
info("handling " + aHost);
let expectedNSResult =
aExpectedResult == PRErrorCodeSuccess
? Cr.NS_OK
: getXPCOMStatusFromNSS(aExpectedResult);
Assert.equal(
conn.result,
expectedNSResult,
"Actual and expected connection result should match"
);
if (aWithSecurityInfo) {
aWithSecurityInfo(
await conn.transport.tlsSocketControl.asyncGetSecurityInfo()
);
}
});
}
function _getBinaryUtil(binaryUtilName) {
let utilBin = Services.dirsvc.get("GreD", Ci.nsIFile);
// On macOS, GreD is .../Contents/Resources, and most binary utilities
// are located there, but certutil is in GreBinD (or .../Contents/MacOS),
// so we have to change the path accordingly.
if (binaryUtilName === "certutil") {
utilBin = Services.dirsvc.get("GreBinD", Ci.nsIFile);
}
utilBin.append(binaryUtilName + mozinfo.bin_suffix);
// If we're testing locally, the above works. If not, the server executable
// is in another location.
if (!utilBin.exists()) {
utilBin = Services.dirsvc.get("CurWorkD", Ci.nsIFile);
while (utilBin.path.includes("xpcshell")) {
utilBin = utilBin.parent;
}
utilBin.append("bin");
utilBin.append(binaryUtilName + mozinfo.bin_suffix);
}
// But maybe we're on Android, where binaries are in /data/local/xpcb.
if (!utilBin.exists()) {
utilBin.initWithPath("/data/local/xpcb/");
utilBin.append(binaryUtilName);
}
Assert.ok(utilBin.exists(), `Binary util ${binaryUtilName} should exist`);
return utilBin;
}
// Do not call this directly; use add_tls_server_setup
function _setupTLSServerTest(serverBinName, certsPath, addDefaultRoot) {
asyncStartTLSTestServer(serverBinName, certsPath, addDefaultRoot).then(
run_next_test
);
}
async function asyncStartTLSTestServer(
serverBinName,
certsPath,
addDefaultRoot
) {
let certdb = Cc["@mozilla.org/security/x509certdb;1"].getService(
Ci.nsIX509CertDB
);
// The trusted CA that is typically used for "good" certificates.
if (addDefaultRoot) {
addCertFromFile(certdb, `${certsPath}/test-ca.pem`, "CTu,u,u");
}
const CALLBACK_PORT = 8444;
let greBinDir = Services.dirsvc.get("GreBinD", Ci.nsIFile);
Services.env.set("DYLD_LIBRARY_PATH", greBinDir.path);
// does not return this path on Android, so hard code it here.
Services.env.set("LD_LIBRARY_PATH", greBinDir.path + ":/data/local/xpcb");
Services.env.set("MOZ_TLS_SERVER_DEBUG_LEVEL", "3");
Services.env.set("MOZ_TLS_SERVER_CALLBACK_PORT", CALLBACK_PORT);
let httpServer = new HttpServer();
let serverReady = new Promise(resolve => {
httpServer.registerPathHandler(
"/",
function handleServerCallback(aRequest, aResponse) {
aResponse.setStatusLine(aRequest.httpVersion, 200, "OK");
aResponse.setHeader("Content-Type", "text/plain");
let responseBody = "OK!";
aResponse.bodyOutputStream.write(responseBody, responseBody.length);
executeSoon(function () {
httpServer.stop(resolve);
});
}
);
httpServer.start(CALLBACK_PORT);
});
let serverBin = _getBinaryUtil(serverBinName);
let process = Cc["@mozilla.org/process/util;1"].createInstance(Ci.nsIProcess);
process.init(serverBin);
let certDir = Services.dirsvc.get("CurWorkD", Ci.nsIFile);
certDir.append(`${certsPath}`);
Assert.ok(certDir.exists(), `certificate folder (${certsPath}) should exist`);
// Using "sql:" causes the SQL DB to be used so we can run tests on Android.
process.run(false, ["sql:" + certDir.path, Services.appinfo.processID], 2);
registerCleanupFunction(function () {
process.kill();
});
await serverReady;
}
// Returns an Array of OCSP responses for a given ocspRespArray and a location
// for a nssDB where the certs and public keys are prepopulated.
// ocspRespArray is an array of arrays like:
// [ [typeOfResponse, certnick, extracertnick, thisUpdateSkew]...]
function generateOCSPResponses(ocspRespArray, nssDBlocation) {
let utilBinName = "GenerateOCSPResponse";
let ocspGenBin = _getBinaryUtil(utilBinName);
let retArray = [];
for (let i = 0; i < ocspRespArray.length; i++) {
let argArray = [];
let ocspFilepre = do_get_file(i.toString() + ".ocsp", true);
let filename = ocspFilepre.path;
// Using "sql:" causes the SQL DB to be used so we can run tests on Android.
argArray.push("sql:" + nssDBlocation);
argArray.push(ocspRespArray[i][0]); // ocsRespType;
argArray.push(ocspRespArray[i][1]); // nick;
argArray.push(ocspRespArray[i][2]); // extranickname
argArray.push(ocspRespArray[i][3]); // thisUpdate skew
argArray.push(filename);
info("argArray = " + argArray);
let process = Cc["@mozilla.org/process/util;1"].createInstance(
Ci.nsIProcess
);
process.init(ocspGenBin);
process.run(true, argArray, argArray.length);
Assert.equal(0, process.exitValue, "Process exit value should be 0");
let ocspFile = do_get_file(i.toString() + ".ocsp", false);
retArray.push(readFile(ocspFile));
ocspFile.remove(false);
}
return retArray;
}
// Starts and returns an http responder that will cause a test failure if it is
// queried. The server identities are given by a non-empty array
// serverIdentities.
function getFailingHttpServer(serverPort, serverIdentities) {
let httpServer = new HttpServer();
httpServer.registerPrefixHandler("/", function () {
Assert.ok(false, "HTTP responder should not have been queried");
});
httpServer.identity.setPrimary("http", serverIdentities.shift(), serverPort);
serverIdentities.forEach(function (identity) {
httpServer.identity.add("http", identity, serverPort);
});
httpServer.start(serverPort);
return httpServer;
}
// Starts an http OCSP responder that serves good OCSP responses and
// returns an object with a method stop that should be called to stop
// the http server.
// NB: Because generating OCSP responses inside the HTTP request
// handler can cause timeouts, the expected responses are pre-generated
// all at once before starting the server. This means that their producedAt
// times will all be the same. If a test depends on this not being the case,
// perhaps calling startOCSPResponder twice (at different times) will be
// necessary.
//
// serverPort is the port of the http OCSP responder
// identity is the http hostname that will answer the OCSP requests
// nssDBLocation is the location of the NSS database from where the OCSP
// responses will be generated (assumes appropiate keys are present)
// expectedCertNames is an array of nicks of the certs to be responsed
// expectedBasePaths is an optional array that is used to indicate
// what is the expected base path of the OCSP request.
// expectedMethods is an optional array of methods ("GET" or "POST") indicating
// by which HTTP method the server is expected to be queried.
// expectedResponseTypes is an optional array of OCSP response types to use (see
// GenerateOCSPResponse.cpp).
// responseHeaderPairs is an optional array of HTTP header (name, value) pairs
// to set in each response.
function startOCSPResponder(
serverPort,
identity,
nssDBLocation,
expectedCertNames,
expectedBasePaths,
expectedMethods,
expectedResponseTypes,
responseHeaderPairs = []
) {
let ocspResponseGenerationArgs = expectedCertNames.map(function (
expectedNick
) {
let responseType = "good";
if (expectedResponseTypes && expectedResponseTypes.length >= 1) {
responseType = expectedResponseTypes.shift();
}
return [responseType, expectedNick, "unused", 0];
});
let ocspResponses = generateOCSPResponses(
ocspResponseGenerationArgs,
nssDBLocation
);
let httpServer = new HttpServer();
httpServer.registerPrefixHandler(
"/",
function handleServerCallback(aRequest, aResponse) {
info("got request for: " + aRequest.path);
let basePath = aRequest.path.slice(1).split("/")[0];
if (expectedBasePaths.length >= 1) {
Assert.equal(
basePath,
expectedBasePaths.shift(),
"Actual and expected base path should match"
);
}
Assert.ok(
expectedCertNames.length >= 1,
"expectedCertNames should contain >= 1 entries"
);
if (expectedMethods && expectedMethods.length >= 1) {
Assert.equal(
aRequest.method,
expectedMethods.shift(),
"Actual and expected fetch method should match"
);
}
aResponse.setStatusLine(aRequest.httpVersion, 200, "OK");
aResponse.setHeader("Content-Type", "application/ocsp-response");
for (let headerPair of responseHeaderPairs) {
aResponse.setHeader(headerPair[0], headerPair[1]);
}
aResponse.write(ocspResponses.shift());
}
);
httpServer.identity.setPrimary("http", identity, serverPort);
httpServer.start(serverPort);
return {
stop(callback) {
// make sure we consumed each expected response
Assert.equal(
ocspResponses.length,
0,
"Should have 0 remaining expected OCSP responses"
);
if (expectedMethods) {
Assert.equal(
expectedMethods.length,
0,
"Should have 0 remaining expected fetch methods"
);
}
if (expectedBasePaths) {
Assert.equal(
expectedBasePaths.length,
0,
"Should have 0 remaining expected base paths"
);
}
if (expectedResponseTypes) {
Assert.equal(
expectedResponseTypes.length,
0,
"Should have 0 remaining expected response types"
);
}
httpServer.stop(callback);
},
};
}
// Given an OCSP responder (see startOCSPResponder), returns a promise that
// resolves when the responder has successfully stopped.
function stopOCSPResponder(responder) {
return new Promise(resolve => {
responder.stop(resolve);
});
}
// Utility functions for adding tests relating to certificate error overrides
// Helper function for add_cert_override_test. Probably doesn't need to be
// called directly.
function add_cert_override(aHost, aSecurityInfo) {
let cert = aSecurityInfo.serverCert;
let certOverrideService = Cc[
"@mozilla.org/security/certoverride;1"
].getService(Ci.nsICertOverrideService);
certOverrideService.rememberValidityOverride(aHost, 8443, {}, cert, true);
}
// Given a host and an expected error code, tests that an initial connection to
// the host fails with the expected error and that adding an override results
// in a subsequent connection succeeding.
function add_cert_override_test(aHost, aExpectedError) {
add_connection_test(
aHost,
aExpectedError,
null,
add_cert_override.bind(this, aHost)
);
add_connection_test(aHost, PRErrorCodeSuccess, null, aSecurityInfo => {
Assert.ok(
aSecurityInfo.securityState &
Ci.nsIWebProgressListener.STATE_CERT_USER_OVERRIDDEN,
"Cert override flag should be set on the security state"
);
});
}
// Helper function for add_prevented_cert_override_test. This is much like
// add_cert_override except it may not be the case that the connection has an
// SecInfo set on it. In this case, the error was not overridable anyway, so
// we consider it a success.
function attempt_adding_cert_override(aHost, aSecurityInfo) {
if (aSecurityInfo.serverCert) {
let cert = aSecurityInfo.serverCert;
let certOverrideService = Cc[
"@mozilla.org/security/certoverride;1"
].getService(Ci.nsICertOverrideService);
certOverrideService.rememberValidityOverride(aHost, 8443, {}, cert, true);
}
}
// Given a host and an expected error code, tests that an initial connection to
// the host fails with the expected error and that adding an override does not
// result in a subsequent connection succeeding (i.e. the same error code is
// encountered).
// The idea here is that for HSTS hosts or hosts with key pins, no error is
// overridable, even if an entry is added to the override service.
function add_prevented_cert_override_test(aHost, aExpectedError) {
add_connection_test(
aHost,
aExpectedError,
null,
attempt_adding_cert_override.bind(this, aHost)
);
add_connection_test(aHost, aExpectedError);
}
// Helper for asyncTestCertificateUsages.
class CertVerificationResult {
constructor(certName, usageString, successExpected, resolve) {
this.certName = certName;
this.usageString = usageString;
this.successExpected = successExpected;
this.resolve = resolve;
}
verifyCertFinished(aPRErrorCode) {
if (this.successExpected) {
equal(
aPRErrorCode,
PRErrorCodeSuccess,
`verifying ${this.certName} for ${this.usageString} should succeed`
);
} else {
notEqual(
aPRErrorCode,
PRErrorCodeSuccess,
`verifying ${this.certName} for ${this.usageString} should fail`
);
}
this.resolve();
}
}
/**
* Asynchronously attempts to verify the given certificate for all supported
* usages (see allCertificateUsages). Verifies that the results match the
* expected successful usages. Returns a promise that will resolve when all
* verifications have been performed.
* Verification happens "now" with no specified flags or hostname.
*
* @param {nsIX509CertDB} certdb
* The certificate database to use to verify the certificate.
* @param {nsIX509Cert} cert
* The certificate to be verified.
* @param {number[]} expectedUsages
* A list of usages (as their integer values) that are expected to verify
* successfully.
* @returns {Promise}
* A promise that will resolve with no value when all asynchronous operations
* have completed.
*/
function asyncTestCertificateUsages(certdb, cert, expectedUsages) {
let now = new Date().getTime() / 1000;
let promises = [];
Object.keys(allCertificateUsages).forEach(usageString => {
let promise = new Promise(resolve => {
let usage = allCertificateUsages[usageString];
let successExpected = expectedUsages.includes(usage);
let result = new CertVerificationResult(
cert.commonName,
usageString,
successExpected,
resolve
);
let flags = Ci.nsIX509CertDB.FLAG_LOCAL_ONLY;
certdb.asyncVerifyCertAtTime(cert, usage, flags, null, now, result);
});
promises.push(promise);
});
return Promise.all(promises);
}
/**
* Loads the pkcs11testmodule.cpp test PKCS #11 module, and registers a cleanup
* function that unloads it once the calling test completes.
*
* @param {nsIFile} libraryFile
* The dynamic library file that implements the module to
* load.
* @param {string} moduleName
* What to call the module.
* @param {boolean} expectModuleUnloadToFail
* Should be set to true for tests that manually unload the
* test module, so the attempt to auto unload the test module
* doesn't cause a test failure. Should be set to false
* otherwise, so failure to automatically unload the test
* module gets reported.
*/
function loadPKCS11Module(libraryFile, moduleName, expectModuleUnloadToFail) {
ok(libraryFile.exists(), "The PKCS11 module file should exist");
let pkcs11ModuleDB = Cc["@mozilla.org/security/pkcs11moduledb;1"].getService(
Ci.nsIPKCS11ModuleDB
);
registerCleanupFunction(() => {
try {
pkcs11ModuleDB.deleteModule(moduleName);
} catch (e) {
Assert.ok(
expectModuleUnloadToFail,
`Module unload should suceed only when expected: ${e}`
);
}
});
pkcs11ModuleDB.addModule(moduleName, libraryFile.path, 0, 0);
}
/**
* @param {string} data
* @returns {string}
*/
function hexify(data) {
// |slice(-2)| chomps off the last two characters of a string.
// Therefore, if the Unicode value is < 0x10, we have a single-character hex
// string when we want one that's two characters, and unconditionally
// prepending a "0" solves the problem.
return Array.from(data, (c, i) =>
("0" + data.charCodeAt(i).toString(16)).slice(-2)
).join("");
}
/**
* @param {string[]} lines
* Lines to write. Each line automatically has "\n" appended to it when
* being written.
* @param {nsIFileOutputStream} outputStream
*/
function writeLinesAndClose(lines, outputStream) {
for (let line of lines) {
line += "\n";
outputStream.write(line, line.length);
}
outputStream.close();
}
/**
* @param {string} moduleName
* The name of the module that should not be loaded.
* @param {string} libraryName
* A unique substring of name of the dynamic library file of the module
* that should not be loaded.
*/
function checkPKCS11ModuleNotPresent(moduleName, libraryName) {
let moduleDB = Cc["@mozilla.org/security/pkcs11moduledb;1"].getService(
Ci.nsIPKCS11ModuleDB
);
let modules = moduleDB.listModules();
ok(
modules.hasMoreElements(),
"One or more modules should be present with test module not present"
);
for (let module of modules) {
notEqual(
module.name,
moduleName,
`Non-test module name shouldn't equal '${moduleName}'`
);
ok(
!(module.libName && module.libName.includes(libraryName)),
`Non-test module lib name should not include '${libraryName}'`
);
}
}
/**
* Checks that the test module exists in the module list.
* Also checks various attributes of the test module for correctness.
*
* @param {string} moduleName
* The name of the module that should be present.
* @param {string} libraryName
* A unique substring of the name of the dynamic library file
* of the module that should be loaded.
* @returns {nsIPKCS11Module}
* The test module.
*/
function checkPKCS11ModuleExists(moduleName, libraryName) {
let moduleDB = Cc["@mozilla.org/security/pkcs11moduledb;1"].getService(
Ci.nsIPKCS11ModuleDB
);
let modules = moduleDB.listModules();
ok(
modules.hasMoreElements(),
"One or more modules should be present with test module present"
);
let testModule = null;
for (let module of modules) {
if (module.name == moduleName) {
testModule = module;
break;
}
}
notEqual(testModule, null, "Test module should have been found");
notEqual(testModule.libName, null, "Test module lib name should not be null");
ok(
testModule.libName.includes(ctypes.libraryName(libraryName)),
`Test module lib name should include lib name of '${libraryName}'`
);
return testModule;
}
// Given an nsIX509Cert, return the bytes of its subject DN (as a JS string) and
// the sha-256 hash of its subject public key info, base64-encoded.
function getSubjectAndSPKIHash(nsCert) {
let certBytes = nsCert.getRawDER();
let cert = new X509.Certificate();
cert.parse(certBytes);
let subject = cert.tbsCertificate.subject._der._bytes;
let subjectString = arrayToString(subject);
let spkiHashString = nsCert.sha256SubjectPublicKeyInfoDigest;
return { subjectString, spkiHashString };
}
function run_certutil_on_directory(directory, args, expectSuccess = true) {
let greBinDir = Services.dirsvc.get("GreBinD", Ci.nsIFile);
Services.env.set("DYLD_LIBRARY_PATH", greBinDir.path);
// does not return this path on Android, so hard code it here.
Services.env.set("LD_LIBRARY_PATH", greBinDir.path + ":/data/local/xpcb");
let certutilBin = _getBinaryUtil("certutil");
let process = Cc["@mozilla.org/process/util;1"].createInstance(Ci.nsIProcess);
process.init(certutilBin);
args.push("-d");
args.push(`sql:${directory}`);
process.run(true, args, args.length);
if (expectSuccess) {
Assert.equal(process.exitValue, 0, "certutil should succeed");
}
}
function get_data_storage_contents(dataStorageFileName) {
let stateFile = do_get_profile();
stateFile.append(dataStorageFileName);
if (!stateFile.exists()) {
return undefined;
}
return readFile(stateFile);
}
function u16_to_big_endian_bytes(u16) {
Assert.less(u16, 65536);
return [u16 / 256, u16 % 256];
}
// Appends a line to the given data storage file (as an nsIOutputStream).
// score is an integer representing the number of unique days the item has been accessed.
// lastAccessed is the day since the epoch the item was last accessed.
// key and value are strings representing the key and value of the item.
function append_line_to_data_storage_file(
outputStream,
score,
lastAccessed,
key,
value,
valueLength = 24,
useBadChecksum = false
) {
let line = arrayToString(u16_to_big_endian_bytes(score));
line = line + arrayToString(u16_to_big_endian_bytes(lastAccessed));
line = line + key;
let keyPadding = [];
for (let i = 0; i < 256 - key.length; i++) {
keyPadding.push(0);
}
line = line + arrayToString(keyPadding);
line = line + value;
let valuePadding = [];
for (let i = 0; i < valueLength - value.length; i++) {
valuePadding.push(0);
}
line = line + arrayToString(valuePadding);
let checksum = 0;
Assert.equal(line.length % 2, 0);
for (let i = 0; i < line.length; i += 2) {
checksum ^= (line.charCodeAt(i) << 8) + line.charCodeAt(i + 1);
}
line =
arrayToString(
u16_to_big_endian_bytes(useBadChecksum ? ~checksum & 0xffff : checksum)
) + line;
outputStream.write(line, line.length);
}